Damage behavior of composite honeycomb sandwich structure subject to low-velocity impact and compression-after-impact using experimental and numerical methods
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引用次数: 0
Abstract
The paper studies the damage initiation and evolution of composite honeycomb sandwich structure subject to low-velocity impact and CAI (compression after impact) loadings by a combination of experimental and numerical methods. The impact responses including impact force and energy absorption were obtained through impact tests, and detailed damage analysis was conducted using various testing methods including ultrasonic C-scan, DIC (digital image correlation), infrared thermography and SEM (scanning electron microscope). A damage model based on MMF (micro-mechanics of failure) and cohesive behavior were used to predict the mechanical behavior of composite facesheets, and an elastoplastic constitutive model with ductile damage was used to model the honeycomb core. The experimental and numerical results show good agreements and reveal that the matrix damage, delamination, core crushing and fiber damage will be induced in the composite honeycomb sandwich structure depending on the impact energy levels. During the CAI process, the strain concentration in the impact region will lead to local buckling of the sandwich structure, and the damage expands from the impact region to the free edges along the transverse direction until the final collapse, which will cause an obvious temperature increase in the damage area.
本文采用实验和数值方法相结合的方法,研究了复合蜂窝夹层结构在低速冲击和 CAI(冲击后压缩)载荷作用下的损伤起始和演变过程。通过冲击试验获得了包括冲击力和能量吸收在内的冲击响应,并使用超声波 C 扫描、数字图像相关、红外热成像和扫描电子显微镜等多种测试方法进行了详细的损伤分析。采用基于 MMF(失效微观力学)和内聚行为的损伤模型来预测复合材料面片的力学行为,并采用具有韧性损伤的弹塑性构成模型来模拟蜂窝芯。实验结果和数值结果显示出良好的一致性,并揭示出复合材料蜂窝夹层结构中会根据冲击能量水平诱发基体损伤、分层、芯材破碎和纤维损伤。在 CAI 过程中,冲击区域的应变集中将导致夹层结构的局部屈曲,损伤沿横向从冲击区域向自由边缘扩展,直至最终坍塌,这将引起损伤区域明显的温度升高。
期刊介绍:
Thin-walled structures comprises an important and growing proportion of engineering construction with areas of application becoming increasingly diverse, ranging from aircraft, bridges, ships and oil rigs to storage vessels, industrial buildings and warehouses.
Many factors, including cost and weight economy, new materials and processes and the growth of powerful methods of analysis have contributed to this growth, and led to the need for a journal which concentrates specifically on structures in which problems arise due to the thinness of the walls. This field includes cold– formed sections, plate and shell structures, reinforced plastics structures and aluminium structures, and is of importance in many branches of engineering.
The primary criterion for consideration of papers in Thin–Walled Structures is that they must be concerned with thin–walled structures or the basic problems inherent in thin–walled structures. Provided this criterion is satisfied no restriction is placed on the type of construction, material or field of application. Papers on theory, experiment, design, etc., are published and it is expected that many papers will contain aspects of all three.
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